1 /************************************************************************ 2 Copyright 1988, 1991 by Carnegie Mellon University 3 4 All Rights Reserved 5 6 Permission to use, copy, modify, and distribute this software and its 7 documentation for any purpose and without fee is hereby granted, provided 8 that the above copyright notice appear in all copies and that both that 9 copyright notice and this permission notice appear in supporting 10 documentation, and that the name of Carnegie Mellon University not be used 11 in advertising or publicity pertaining to distribution of the software 12 without specific, written prior permission. 13 14 CARNEGIE MELLON UNIVERSITY DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS 15 SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. 16 IN NO EVENT SHALL CMU BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL 17 DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR 18 PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS 19 ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS 20 SOFTWARE. 21 22 $FreeBSD$ 23 24 ************************************************************************/ 25 26 /* 27 * Generalized hash table ADT 28 * 29 * Provides multiple, dynamically-allocated, variable-sized hash tables on 30 * various data and keys. 31 * 32 * This package attempts to follow some of the coding conventions suggested 33 * by Bob Sidebotham and the AFS Clean Code Committee of the 34 * Information Technology Center at Carnegie Mellon. 35 */ 36 37 38 #include <sys/types.h> 39 #include <stdlib.h> 40 41 #ifndef USE_BFUNCS 42 #include <memory.h> 43 /* Yes, memcpy is OK here (no overlapped copies). */ 44 #define bcopy(a,b,c) memcpy(b,a,c) 45 #define bzero(p,l) memset(p,0,l) 46 #define bcmp(a,b,c) memcmp(a,b,c) 47 #endif 48 49 #include "hash.h" 50 51 #define TRUE 1 52 #define FALSE 0 53 #ifndef NULL 54 #define NULL 0 55 #endif 56 57 /* 58 * This can be changed to make internal routines visible to debuggers, etc. 59 */ 60 #ifndef PRIVATE 61 #define PRIVATE static 62 #endif 63 64 PRIVATE void hashi_FreeMembers(hash_member *, hash_freefp); 65 66 67 68 69 /* 70 * Hash table initialization routine. 71 * 72 * This routine creates and intializes a hash table of size "tablesize" 73 * entries. Successful calls return a pointer to the hash table (which must 74 * be passed to other hash routines to identify the hash table). Failed 75 * calls return NULL. 76 */ 77 78 hash_tbl * 79 hash_Init(tablesize) 80 unsigned tablesize; 81 { 82 hash_tbl *hashtblptr; 83 unsigned totalsize; 84 85 if (tablesize > 0) { 86 totalsize = sizeof(hash_tbl) 87 + sizeof(hash_member *) * (tablesize - 1); 88 hashtblptr = (hash_tbl *) malloc(totalsize); 89 if (hashtblptr) { 90 bzero((char *) hashtblptr, totalsize); 91 hashtblptr->size = tablesize; /* Success! */ 92 hashtblptr->bucketnum = 0; 93 hashtblptr->member = (hashtblptr->table)[0]; 94 } 95 } else { 96 hashtblptr = NULL; /* Disallow zero-length tables */ 97 } 98 return hashtblptr; /* NULL if failure */ 99 } 100 101 102 103 /* 104 * Frees an entire linked list of bucket members (used in the open 105 * hashing scheme). Does nothing if the passed pointer is NULL. 106 */ 107 108 PRIVATE void 109 hashi_FreeMembers(bucketptr, free_data) 110 hash_member *bucketptr; 111 hash_freefp free_data; 112 { 113 hash_member *nextbucket; 114 while (bucketptr) { 115 nextbucket = bucketptr->next; 116 (*free_data) (bucketptr->data); 117 free((char *) bucketptr); 118 bucketptr = nextbucket; 119 } 120 } 121 122 123 124 125 /* 126 * This routine re-initializes the hash table. It frees all the allocated 127 * memory and resets all bucket pointers to NULL. 128 */ 129 130 void 131 hash_Reset(hashtable, free_data) 132 hash_tbl *hashtable; 133 hash_freefp free_data; 134 { 135 hash_member **bucketptr; 136 unsigned i; 137 138 bucketptr = hashtable->table; 139 for (i = 0; i < hashtable->size; i++) { 140 hashi_FreeMembers(*bucketptr, free_data); 141 *bucketptr++ = NULL; 142 } 143 hashtable->bucketnum = 0; 144 hashtable->member = (hashtable->table)[0]; 145 } 146 147 148 149 /* 150 * Generic hash function to calculate a hash code from the given string. 151 * 152 * For each byte of the string, this function left-shifts the value in an 153 * accumulator and then adds the byte into the accumulator. The contents of 154 * the accumulator is returned after the entire string has been processed. 155 * It is assumed that this result will be used as the "hashcode" parameter in 156 * calls to other functions in this package. These functions automatically 157 * adjust the hashcode for the size of each hashtable. 158 * 159 * This algorithm probably works best when the hash table size is a prime 160 * number. 161 * 162 * Hopefully, this function is better than the previous one which returned 163 * the sum of the squares of all the bytes. I'm still open to other 164 * suggestions for a default hash function. The programmer is more than 165 * welcome to supply his/her own hash function as that is one of the design 166 * features of this package. 167 */ 168 169 unsigned 170 hash_HashFunction(string, len) 171 unsigned char *string; 172 unsigned len; 173 { 174 unsigned accum; 175 176 accum = 0; 177 for (; len > 0; len--) { 178 accum <<= 1; 179 accum += (unsigned) (*string++ & 0xFF); 180 } 181 return accum; 182 } 183 184 185 186 /* 187 * Returns TRUE if at least one entry for the given key exists; FALSE 188 * otherwise. 189 */ 190 191 int 192 hash_Exists(hashtable, hashcode, compare, key) 193 hash_tbl *hashtable; 194 unsigned hashcode; 195 hash_cmpfp compare; 196 hash_datum *key; 197 { 198 hash_member *memberptr; 199 200 memberptr = (hashtable->table)[hashcode % (hashtable->size)]; 201 while (memberptr) { 202 if ((*compare) (key, memberptr->data)) { 203 return TRUE; /* Entry does exist */ 204 } 205 memberptr = memberptr->next; 206 } 207 return FALSE; /* Entry does not exist */ 208 } 209 210 211 212 /* 213 * Insert the data item "element" into the hash table using "hashcode" 214 * to determine the bucket number, and "compare" and "key" to determine 215 * its uniqueness. 216 * 217 * If the insertion is successful 0 is returned. If a matching entry 218 * already exists in the given bucket of the hash table, or some other error 219 * occurs, -1 is returned and the insertion is not done. 220 */ 221 222 int 223 hash_Insert(hashtable, hashcode, compare, key, element) 224 hash_tbl *hashtable; 225 unsigned hashcode; 226 hash_cmpfp compare; 227 hash_datum *key, *element; 228 { 229 hash_member *temp; 230 231 hashcode %= hashtable->size; 232 if (hash_Exists(hashtable, hashcode, compare, key)) { 233 return -1; /* At least one entry already exists */ 234 } 235 temp = (hash_member *) malloc(sizeof(hash_member)); 236 if (!temp) 237 return -1; /* malloc failed! */ 238 239 temp->data = element; 240 temp->next = (hashtable->table)[hashcode]; 241 (hashtable->table)[hashcode] = temp; 242 return 0; /* Success */ 243 } 244 245 246 247 /* 248 * Delete all data elements which match the given key. If at least one 249 * element is found and the deletion is successful, 0 is returned. 250 * If no matching elements can be found in the hash table, -1 is returned. 251 */ 252 253 int 254 hash_Delete(hashtable, hashcode, compare, key, free_data) 255 hash_tbl *hashtable; 256 unsigned hashcode; 257 hash_cmpfp compare; 258 hash_datum *key; 259 hash_freefp free_data; 260 { 261 hash_member *memberptr, *tempptr; 262 hash_member *previous = NULL; 263 int retval; 264 265 retval = -1; 266 hashcode %= hashtable->size; 267 268 /* 269 * Delete the first member of the list if it matches. Since this moves 270 * the second member into the first position we have to keep doing this 271 * over and over until it no longer matches. 272 */ 273 memberptr = (hashtable->table)[hashcode]; 274 while (memberptr && (*compare) (key, memberptr->data)) { 275 (hashtable->table)[hashcode] = memberptr->next; 276 /* 277 * Stop hashi_FreeMembers() from deleting the whole list! 278 */ 279 memberptr->next = NULL; 280 hashi_FreeMembers(memberptr, free_data); 281 memberptr = (hashtable->table)[hashcode]; 282 retval = 0; 283 } 284 285 /* 286 * Now traverse the rest of the list 287 */ 288 if (memberptr) { 289 previous = memberptr; 290 memberptr = memberptr->next; 291 } 292 while (memberptr) { 293 if ((*compare) (key, memberptr->data)) { 294 tempptr = memberptr; 295 previous->next = memberptr = memberptr->next; 296 /* 297 * Put the brakes on hashi_FreeMembers(). . . . 298 */ 299 tempptr->next = NULL; 300 hashi_FreeMembers(tempptr, free_data); 301 retval = 0; 302 } else { 303 previous = memberptr; 304 memberptr = memberptr->next; 305 } 306 } 307 return retval; 308 } 309 310 311 312 /* 313 * Locate and return the data entry associated with the given key. 314 * 315 * If the data entry is found, a pointer to it is returned. Otherwise, 316 * NULL is returned. 317 */ 318 319 hash_datum * 320 hash_Lookup(hashtable, hashcode, compare, key) 321 hash_tbl *hashtable; 322 unsigned hashcode; 323 hash_cmpfp compare; 324 hash_datum *key; 325 { 326 hash_member *memberptr; 327 328 memberptr = (hashtable->table)[hashcode % (hashtable->size)]; 329 while (memberptr) { 330 if ((*compare) (key, memberptr->data)) { 331 return (memberptr->data); 332 } 333 memberptr = memberptr->next; 334 } 335 return NULL; 336 } 337 338 339 340 /* 341 * Return the next available entry in the hashtable for a linear search 342 */ 343 344 hash_datum * 345 hash_NextEntry(hashtable) 346 hash_tbl *hashtable; 347 { 348 unsigned bucket; 349 hash_member *memberptr; 350 351 /* 352 * First try to pick up where we left off. 353 */ 354 memberptr = hashtable->member; 355 if (memberptr) { 356 hashtable->member = memberptr->next; /* Set up for next call */ 357 return memberptr->data; /* Return the data */ 358 } 359 /* 360 * We hit the end of a chain, so look through the array of buckets 361 * until we find a new chain (non-empty bucket) or run out of buckets. 362 */ 363 bucket = hashtable->bucketnum + 1; 364 while ((bucket < hashtable->size) && 365 !(memberptr = (hashtable->table)[bucket])) { 366 bucket++; 367 } 368 369 /* 370 * Check to see if we ran out of buckets. 371 */ 372 if (bucket >= hashtable->size) { 373 /* 374 * Reset to top of table for next call. 375 */ 376 hashtable->bucketnum = 0; 377 hashtable->member = (hashtable->table)[0]; 378 /* 379 * But return end-of-table indication to the caller this time. 380 */ 381 return NULL; 382 } 383 /* 384 * Must have found a non-empty bucket. 385 */ 386 hashtable->bucketnum = bucket; 387 hashtable->member = memberptr->next; /* Set up for next call */ 388 return memberptr->data; /* Return the data */ 389 } 390 391 392 393 /* 394 * Return the first entry in a hash table for a linear search 395 */ 396 397 hash_datum * 398 hash_FirstEntry(hashtable) 399 hash_tbl *hashtable; 400 { 401 hashtable->bucketnum = 0; 402 hashtable->member = (hashtable->table)[0]; 403 return hash_NextEntry(hashtable); 404 } 405 406 /* 407 * Local Variables: 408 * tab-width: 4 409 * c-indent-level: 4 410 * c-argdecl-indent: 4 411 * c-continued-statement-offset: 4 412 * c-continued-brace-offset: -4 413 * c-label-offset: -4 414 * c-brace-offset: 0 415 * End: 416 */ 417